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Correlating Metabolic Response to Radiation Therapy with HIF-1alpha Expression

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D Campos

D Campos1*, W Peeters2 , K Nickel3 , K Eliceiri4 , R Kimple5 , A Van Der Kogel6 , M Kissick7 , (1) University of Wisconsin Madison, Madison, WI, (2) Radboud University Medical Center, Nijmegen, GA, (3) University of Wisconsin, Madison, WI, (4) University of Wisconsin, Madison, Wisconsin, (5) University of Wisconsin, Madison, Wisconsin, (6) University of Wisconsin, Madison, Wisconsin, (7) University of Wisconsin, Madison, Wisconsin

Presentations

SU-C-303-2 (Sunday, July 12, 2015) 1:00 PM - 1:55 PM Room: 303


Purpose:
To understand radiation induced alterations in cellular metabolism which could be used to assess treatment or normal tissue response to aid in patient-specific adaptive radiotherapy. This work aims to compare the metabolic response of two head and neck cell lines, one malignant (UM-SCC-22B) and one benign (Normal Oral Keratinocyte), to ionizing radiation. Responses are compared to alterations in HIF-1alpha expression. These dynamics can potentially serve as biomarkers in assessing treatment response allowing for patient-specific adaptive radiotherapy.

Methods:
Measurements of metabolism and HIF-1alpha expression were taken before and X minutes after a 10 Gy dose of radiation delivered via an orthovoltage x-ray source. In vitro changes in metabolic activity were measured via fluorescence lifetime imaging (FLIM) to assess the mean lifetime of NADH autofluorescence following a dose of 10 Gy. HIF-1alpha expression was measured via immunohistochemical staining of in vitro treated cells and expression was quantified using the FIJI software package.

Results:
FLIM demonstrated a decrease in the mean fluorescence lifetime of NADH by 100 ps following 10 Gy indicating a shift towards glycolytic pathways for malignant cells; whereas this benign cell line showed little change in metabolic signature. Immunohistochemical analysis showed significant changes in HIF-1alpha expression in response to 10 Gy of radiation that correlate to metabolic profiles.

Conclusion:
Radiation induces significant changes in metabolic activity and HIF-1alpha expression. These alterations occur on time scales approximating the duration of common radiation treatments (approximately tens of minutes). Further understanding these dynamics has important implications with regard to improvement of therapy and biomarkers of treatment response.



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